An assembly for displaying an interlaced image. The assembly includes an interlaced image, which may be digitally or web printed for example, with sets of elongate image elements or slices A lens arrays is provided with a first side proximate the interlaced image such as a planar surface and a second side distal the image with numerous lens sets. Each of the lens sets is paired with one of the sets of the image elements and includes a number of linear or elongate lenses that are each mapped to one to three image elements. The lenses are each configured to focus light from the subset of image elements to a viewer along a focus direction or line. The lenses are configured to provide a lens-specific viewing angle with a focus line, and the focus line to the paired image element subset differs from other lenses or is unique.

An assembly for displaying an interlaced image. The assembly includes an interlaced image, which may be digitally or web printed for example, with sets of elongate image elements or slices. A lens arrays is provided with a first side proximate the interlaced image such as a planar surface and a second side distal the image with numerous lens sets. Each of the lens sets is paired with one of the sets of the image elements and includes a number of linear or elongate lenses that are each mapped to one to three image elements. The lenses are each configured to focus light from the subset of image elements to a viewer along a focus direction or line. The lenses are configured to provide a lens-specific viewing angle with a focus line, and the focus line to the paired image element subset differs from other lenses or is unique.

Disclosed herein is a method for determining a lenticular lens resolution for use in digital press printing. The method includes determining a digital press machine resolution d, setting a master interlaced image resolution m for a master interlaced image such that the master interlaced image resolution is equal to the machine resolution, setting a number of frames f to be included in the master interlaced image, and determining a lenticular lens resolution L according to the relationship L=d/f. The result is a digitally output lenticular image that can be have many applications, including use in products such as containers, packages, labels, and the like. The selection process accounts for variations in digital press machine resolutions, lenticular lens resolution variations, various screening algorithms, to yield a high quality, commercial-grade digitally output lenticular image.

A lenticular device for displaying interlaced images. The device includes an interlaced image and a lens array. The lens sets each have two or more adjacent lenticules and are paired mapped to sets of the image elements such that two or more lenses are used to visually display a set of image elements rather than a single lenticule. The number of lenses is a non-integral multiple of the number of image elements in the image set such that the rays exiting from the lens sets are at unique viewing angles associated with each of the image elements. The image sets include interlaces from sequential images, and the interlaces are provided in the interlaced image so as to have an order that differs from the sequential ordering of the images to provide a sequential output of the images.